4336-39-4Relevant articles and documents
Transglycosylation in the Modification and Isotope Labeling of Pyrimidine Nucleosides
Gong, Yong,Chen, Lu,Zhang, Wei,Salter, Rhys
, p. 5577 - 5581 (2020/07/24)
Transglycosylation of pyrimidine nucleosides is demonstrated in a one-pot synthesis of uridine derivatives under microwave irradiation. Inductive activation of 2′,3′,5′-tri-O-acetyl uridine with a 5-nitro group produces a more-reactive glycosyl donor. Under optimized Vorbrüggen conditions, the 5-nitrouridine facilitates a reversible nucleobase exchange with a series of 5-substituted uracils. The protocol is also exemplified in a gram-scale reaction under thermal heating. The strategy provides easy access to isotopically labeled uridine.
Cyano Modification on Uridine Decreases Base-Pairing Stability and Specificity through Neighboring Disruption in RNA Duplex
Mao, Song,Ranganathan, Srivathsan V.,Tsai, Hsu-Chun,Haruehanroengra, Phensinee,Shen, Fusheng,Valsangkar, Vibhav A.,Han, Bo,Hassan, Abdalla E. A.,Chen, Alan,Sheng, Jia
, p. 2558 - 2565 (2018/11/23)
5-Cyanomethyluridine (cnm5U) and 5-cyanouridine (cn5U), the two uridine analogues, were synthesized and incorporated into RNA oligonucleotides. Base-pairing stability and specificity studies in RNA duplexes indicated that cnm5/
Effective synthesis of nucleosides utilizing O-acetyl-glycosyl chlorides as glycosyl donors in the absence of catalyst: Mechanism revision and application to silyl-hilbert-johnson reaction
Liang, Chengyuan,Ju, Weihui,Ding, Shunjun,Sun, Han,Mao, Gennian
, (2017/01/24)
An effective synthesis of nucleosides using glycosyl chlorides as glycosyl donors in the absence of Lewis acid has been developed. Glycosyl chlorides have been shown to be pivotal intermediates in the classical silyl-Hilbert-Johnson reaction. A possible mechanism that differs from the currently accepted mechanism advanced by Vorbrueggen has been proposed and verified by experiments. In practice, this catalyst-free method provides easy access to Capecitabine in high yield.